DE102022107437A1 - Device and method for improving indoor air quality - Google Patents

Abstract

The invention relates to a device for improving the indoor air quality, comprising a water tank, a device for generating water-containing fluid and a plant wall comprising moss, wherein the device for generating water-containing fluid is connected to a hose or pipe system and is set up to generate water-containing fluid into the hose or pipe system, and wherein the hose or pipe system has at least one outlet opening through which water-containing fluid located in the hose or pipe system can exit, characterized by a movable cover that is set up in a first position to cover at least 80% of the area of the plant wall on which the plants are arranged, and in a second position to cover a smaller proportion of this area.

Description

The present invention relates to a device and a method for improving indoor air quality and the use of the device according to the invention for improving indoor air quality.

Plants are known to improve air quality both outdoors and indoors. It is well known that plants convert carbon dioxide into oxygen through their photosynthetic activity and thus increase the oxygen content in the air. However, some plants also purify the air by filtering pollutants from the air and/or absorbing dust particles from the air.

It has been shown that mosses in particular are highly effective in binding fine dust, since they electrostatically attract it and convert it into metabolic products. Because unlike most plants, mosses do not have roots through which they absorb minerals from the soil, but they absorb them directly from the air, for example in the form of fine dust, which is said to be responsible for various lung diseases.

Frahm (Frahm, J.-P. (o. J.). Fine dust reduction on roadsides by moss mats, University of Bonn) found that 75% of the fine dust absorbed by moss is metabolized or biologically degraded, while 25% sediments in the moss cushion.

Mosses also have the advantage that, in contrast to most other plants, they are extremely undemanding in terms of their needs and because they do not absorb the minerals through their roots but through the air, they do not even need soil or another substrate containing minerals. Rather, air and water are completely sufficient for the growth of moss. But although moss does not need anything other than air and water, the type of irrigation, the quality of the water and also the location have a great influence on the thriving, as will be explained below.

Devices for improving the air quality are already known from the prior art, which use moss or other plants as an air filter, but primarily outdoors, particularly in urban areas with a high level of fine dust pollution in the air. Here, for example, moss walls were erected on busy roads along these roads in order to bind the fine dust directly at the point of origin. A moss-covered planting wall for fine dust binding in urban areas is, for example, in the DE 10 2014 114 307 B3 described.

However, the effect of such moss walls was quite limited in locations where the moss was exposed to high levels of solar radiation and it was found that while the moss absorbed particulate matter from the air, it was damaged by the high levels of solar radiation.

An elaboration by Sempel et al. (Sempel, F., Gorbachevskaya, O., Mewis, I., & Ulrichs, C. (2013), Model test for fine dust binding: Extensive roof greening vs. gravel roof. Healthy plants, 65(3), 113-118) shows that Mosses on flat roofs absorb fine dust particles with a diameter of 0.5 µm 78% better than conventional geotextile underlays. Fine dust particles with a diameter of 1 µm can be absorbed 65% better. Adding 2 m/s wind turbulence increases the uptake of geotextile backings to moss mats by 100% for 0.5 µm diameter particles, while the uptake of 1 µm particles increases by 96%.

the DE 202013012375 U1 describes vertical plant walls with an irrigation system, especially made of moss. Irrigation is carried out by a movable nozzle tube, which can optionally be shaken to better distribute the water droplets.

DE 10 2018 129 987 A1 also describes vertical plant walls with an irrigation system, in particular for high facades. Since it has been found that the plant wall with irrigation system described in the aforementioned utility model is not technically suitable for watering high facades, according to this patent application, water reservoirs are arranged at different heights of the plant wall, from which water for watering the surrounding plants of the plant wall is removed.

A disadvantage of the type of irrigation of a plant wall described in the aforementioned utility model and the aforementioned patent application is that the irrigation through the nozzle tube that can be moved over the plant wall is frontal irrigation, which is comparatively aggressive and not gentle on the plants. The plant wall with the irrigation system used there can also be improved from a visual point of view, since the nozzle pipe that can be moved over the plant wall can be perceived as annoying.

Moss Walls LLC also sells moss walls for interiors that are surrounded by a hose system. Through this, water is transported upwards from a tank, whereby a spray mist is generated by several nozzles in order to moisten the moss wall by the spray mist falling onto the wall from above. The disadvantage of such moss walls is that the spray system is imprecise and partly waters the surrounding space in addition to the moss wall, and that the pump causes noises that are perceived as annoying indoors, for example offices.

the U.S. 2020/0323154 A1 also describes moss walls for interiors, which optionally have an activated carbon filter.

DE 10 2016 011 230 A1 describes a method for cleaning indoor air using living mosses. The moss is irrigated by a humidified, i.e. water-loaded, carrier gas stream, which is intended to prevent waterlogging in the area of the moss. A line system can be provided for transporting the carrier gas stream to the desired location, and guide plates are described for guiding the flow.

In summary, various plant walls, which in particular comprise or consist of moss, are known from the prior art. However, only a few of these plant walls are suitable for indoor use, and the existing solutions each have disadvantages that have to be overcome in terms of appearance, the type of irrigation and/or the background noise generated by the irrigation.

object of the invention

It is the object of the present invention to provide an alternative device and an alternative method for improving indoor air quality, the device comprising a planting wall which can be watered in a targeted and effective manner, yet being gentle on the plants.

General Description of the Invention

The invention solves this problem with the features of the claims and in particular with a device for improving the air quality indoors, comprising a water tank, a device for generating water-containing fluid and a plant wall comprising moss, the device for generating water-containing fluid having a hose - or pipe system is connected and is set up to release the water-containing fluid produced into the hose or pipe system, and wherein the hose or pipe system has at least one outlet opening, preferably a large number of outlet openings, through which water-containing fluid in the hose or pipe system exits can, wherein a movable cover is set up to cover at least 80% of the area of the plant wall on which the plants are arranged in a first position, and to cover a smaller proportion of this area in a second position.

For the purposes of the invention, a plant wall is understood to mean a preferably vertically or essentially vertically arranged and preferably flat surface on which living plants, in particular moss, are arranged, wherein the surface can be part of a body of any shape. In preferred embodiments, the plant wall is a plate or a plate-like structure, for example a wire mesh, on which a fleece is optionally arranged, on which in turn the living and non-preserved plants are arranged. A substantially vertically arranged plant wall can, for example, have a slight slope in one direction, for example a slope of 2-5%, in particular 2-3%. In this way, the moisture applied to the plants during watering stays on the plants longer.

For the purposes of the invention, an aqueous fluid is understood to mean a gas or a liquid which contains or consists of water. Preferred water-containing fluids can be selected from the group comprising water-containing or water-consisting vapor, in particular steam, water-containing or water-consisting mist, water-containing or water-consisting liquids, in particular water, such as finely atomized water.

Due to the initially mentioned air-cleaning or air-filtering properties of moss, the plant wall according to the invention always has moss as plants, with the plants arranged on the plant wall being able to belong either to the same type of moss or alternatively to different types of moss. Optionally, the plant wall of the device according to the invention also has other plants in addition to moss, in particular plants which, like moss, have no roots through which minerals and water can be absorbed. Further plants arranged on the plant wall can therefore be selected in particular from the group comprising lichens, algae, phytoplankton and water hoses.

In the context of the present invention, it was found that moss-bearing plants Although walls are apparently quite undemanding in terms of their needs, since they require nothing but water and air, the type of irrigation and the quality of the water used for irrigation in particular have a considerable influence on the growth of plants.

This topic is not discussed in the prior art and apparently the influence of irrigation and water quality on the plants has not been adequately investigated to date. Regarding the nature of the water used for irrigation, moss grows best when irrigated with rainwater. However, rainwater is only suitable for watering outdoor plant walls because it contains bacteria. Therefore, in the prior art, tap water is used for watering plant walls erected indoors, but the properties of this water differ significantly from those of rainwater. In particular, tap water has a pH of about 8.0, while rainwater has a pH of about 5.3. Tap water also has an increased hardness compared to rainwater, which is why it is, for example, from the initially mentioned U.S. 2020/0323154 A1 it is known to use an activated carbon filter to filter the water used for irrigation. This mainly filters chloride ions out of the water. However, it was found within the scope of the invention that this is not sufficient for optimal growth, but rather that the degree of hardness of the water should also be reduced.

The device according to the invention for improving the indoor air quality therefore preferably has an activated carbon filter and a cation exchanger. The latter removes Ca ²⁺ ions and Mg ²⁺ ions from the water and adds K ⁺ ions and Na ⁺ ions instead. This reduces the overall degree of hardness of the water from approx. 4.0 to 8.0 °dH (depending on the hardness of the water) to <1.0 °dH, in particular to approx. 0.6 °dH. The lower calcium content of the water has a positive effect on the moss, since moss absorbs too much calcium and deposits it on the tips of the leaves, causing permanent damage to the moss.

In addition to the quality of the water used, the type of watering used in the prior art is also not optimal for the plants, since the watering is carried out frontally by spraying water onto the plants. According to the invention, however, the moss is watered in a gentle manner that comes closest to actual watering in nature. According to the invention, therefore, no water is sprayed frontally onto the plants, but watering is carried out using water-containing fluid. For this purpose, the device according to the invention for improving the air quality has a device for generating water-containing fluid, which preferably comprises or consists of an ultrasonic air humidifier.

The water-containing fluid produced by the device for generating water-containing fluid, for example mist consisting of water or steam, is allowed to enter a hose or pipe system which is part of the device according to the invention. This hose or pipe system can optionally consist of one or more hoses or one or more pipes, in particular HT pipe(s) (high-temperature pipe(s)), which are arranged on or in the immediate vicinity of the plant wall.

According to one embodiment, the plant wall of the device according to the invention is at least partially surrounded by the hose or pipe system that is connected to the device for generating steam. For example, the plant wall is surrounded by the hose or pipe system on one, two or three sides. The hose or pipe system has at least one outlet opening for the water-containing fluid or preferably several outlet openings for the water-containing fluid. If there is only one outlet opening, it is advantageous that this is elongated, i.e. slit-shaped, in order to be able to supply the plant wall with moisture over the entire surface. However, the hose or pipe system preferably has a multiplicity of outlet openings spaced apart from one another, through which water-containing fluid produced by the device for generating water-containing fluid can exit. The outlet openings are preferably distributed over the entire length of the hose or pipe system.

In embodiments in which the hose or pipe system is only arranged on one side of the plant wall, it is preferred that it is arranged at the top edge of the plant wall.

In embodiments in which the hose or pipe system is arranged on two sides of the plant wall, it is preferred that it is arranged on the upper edge and on the lower edge of the plant wall.

In the context of the present invention, it has turned out that it is a challenge to evenly water the moss and optional other plants of the plant wall. Even with irrigation using steam or mist, which is generally very well suited for watering plant walls, there are places on the plant wall to which significantly less steam or mist reaches than other places and are therefore drier. The invention therefore provides for the water-containing fluid generated by the device for generating water-containing fluid to be covered by a movable cover which, in a first position, covers at least 80%, preferably at least 90%, more preferably at least 95% and particularly preferably the entire surface of the plant wall which the plants are arranged, covered, for a longer period of time to hold the plant wall and to water it evenly. In a second position, the movable cover covers a smaller portion of this area or preferably does not cover it at all.

For optimal watering, the movable cover can therefore be moved in front of the plant wall and at least largely and preferably completely cover it. In this way, an intermediate space is created between the movable cover and the plant wall, in which the water-containing fluid is held significantly longer than without the movable cover, without which the water-containing fluid can escape on all sides. After watering has taken place, the movable cover can be moved into a second position in which it covers the area of the plant wall on which the plants are arranged less than in the first position or no longer at all.

“Covering over” is to be understood in the context of the invention in such a way that the movable cover is arranged essentially parallel to, but at a distance from, the plant wall and therefore does not contact it. The movable cover is preferably arranged at a distance of approx. 2 to 20 cm, in particular at a distance of approx. 2 to 15 cm or 2 to 10 cm, from the plant wall and essentially parallel to it.

A preferred movable cover may be selected from the group comprising or consisting of a roller blind, a pleated blind, a venetian blind, a curtain, a sliding wall or one or more flaps.

It was found that the distribution of the water-containing fluid in the space between the plant wall and the movable cover is more evenly distributed by the physical driving forces than with a specifically generated air flow, which is also easily caused by air flows in the room (e.g. through open doors or windows and movements of people) can be distracted.

Due to the gravitational gradient, the water-containing fluid, which is directed in particular from above into the space between the planting wall and the movable cover, sinks downwards in the form of a fluid wall; the water droplets contained in the fluid touch the vegetation surface. Due to the small size of the drops, they not only fall very slowly, but also form an enlarged surface, which in turn promotes the evaporation process. Evaporated water molecules are distributed evenly in the cavity by water vapor diffusion. The driving force for this is the different water vapor pressures and the associated pressure drop from moist to dry air. The fluid is preferably supplied up to the point of complete saturation; this creates an optimal microclimate for the moss plants. These take up the water across the leaflet surface, which occurs through the physical driving force of the water potential gradient that exists between the moist air, the locus of higher water potential, and the dry plant, the locus of lower water potential.

Another advantage of the movable cover is that it can optionally be used in offices as a screen / projection surface for a beamer or can also be provided with a logo or similar as advertising.

According to a preferred embodiment of the device according to the invention, the cover that can be moved in front of the planting wall has at its lower end a hose or pipe system connected to the device for generating water-containing fluid, which has at least one and preferably several outlet openings for the water-containing fluid. This hose or pipe system at the lower end of the movable cover can be the only hose or pipe system of the device according to the invention, or alternatively an additional hose or pipe system that is present in addition to a hose or pipe system that, for example is arranged on one or more sides of the plant wall and also has at least one outlet opening for the water-containing fluid. If there are several hose or pipe systems, the water-containing fluid discharged into them can optionally be identical or different. For example, the aqueous fluid introduced into a hose or pipe system on one or more sides of the plant wall could be water vapor or mist, while the aqueous fluid introduced into the hose or pipe system at the lower end of the movable cover could be water is.

Irrespective of how many hose or pipe systems the device according to the invention has, it is preferred that these have nozzles at the outlet openings, through which the water-containing fluid is applied to the plant wall.

In embodiments in which the device according to the invention has a hose or pipe system at the lower end of the movable cover and optionally has outlet openings and/or nozzles arranged at regular intervals for dispensing the water-containing fluid onto the plant wall, the vegetation area is preferably whenever the movable cover is moved in front of the plant wall, irrigated by dispensing the water-containing fluid. Particularly in the case of a movable cover that can be extended or pulled out from the upper end to the lower end of the plant wall, the hose or pipe system is moved over the entire length of the plant wall, while water-containing fluid can be allowed to escape from it.

If the plants on the plant wall are completely dry (e.g. after a holiday/weekend/heat wave), they are exposed to a larger amount of water so that the plants, especially the moss, quickly soak up to the point of saturation. After that, only moderate watering, e.g. with fog, is necessary in order to obtain the optimal turgor for the plant. This combination of irrigation systems mimics the irrigation of nature as closely as possible, which also forms a combination of downpours and fog.

The invention preferably also provides for moving the water-containing fluid produced by means of a fan or by means of several fans in the direction of the plant wall or in the direction of certain points of the plant wall.

According to a preferred embodiment of the invention, the device according to the invention is in front of or below the plant wall at a distance of up to 50 cm, in particular at a distance of up to 40 cm and particularly preferably at a distance of up to 30 cm from the underside of the plant wall at least one fan arranged.

In one embodiment, the device according to the invention for improving the indoor air quality comprises a water tank, a device for generating water-containing fluid, in particular steam, and a plant wall comprising moss, the plant wall being at least partially covered at its edges by a device for generating water-containing fluid-connected tube system, wherein the device for generating aqueous fluid is set up to release the generated aqueous fluid into the tube system and wherein the tube system has a large number of holes spaced apart from one another, through which aqueous fluid located in the tube system can escape, wherein the The device further comprises at least one fan which is arranged at a distance from the plant wall, the fan being arranged to move water-containing fluid in the direction of the plant wall.

According to one embodiment of the device according to the invention, several fans are arranged in the area of the edges of the plant wall, which can optionally be controlled separately from one another and are set up to move water-containing fluid exiting from the at least one outlet opening in the hose or pipe system in the direction of the plant wall. “In the area of the edges” of the plant wall preferably means that the fans are arranged at a small distance from the edges of the plant wall, for example at a distance of 0.5-30 cm. The number and arrangement of the fans is to be selected in particular depending on the size and geometry of the plant wall. In particular, several fans can be arranged at a distance of about 30 to 70 cm and in particular at a distance of about 40 to 60 cm from each other. Optionally, the fans are each arranged in close proximity to an outlet opening in the hose or pipe system, for example at a distance of max. 10 cm, max. 20 cm or max. 30 cm. In this way, water-containing fluid escaping from the holes in the hose or pipe system can be moved directly by the fans in the direction of the plant wall or the center of the plant wall. Due to their orientation, the fans are set up to move the water-containing fluid in the direction of the plant wall or the center of the plant wall. In this way, the plants arranged on the planting wall are gently watered with water-containing fluid.

According to one embodiment, the device according to the invention has on the side of the plant wall facing away from the moss, i.e. on the back of the plant wall, an intake fan or several intake fans, which is/are set up to extract the air from the outlet openings in the hose or pipe system to suck water-containing fluid, whereby the penetration of the water-containing fluid is supported in the plant wall for the purpose of irrigation.

Irrespective of whether fans are arranged in the area of the edges of the plant wall, which move the water-containing fluid in the direction of the plant wall, according to one embodiment, the device according to the invention has at least one and preferably several suction fans on the side of the plant wall facing away from the moss, whereby, if there is only one suction fan, this is preferably arranged centrally on the back of the plant wall, and in the event that there are several intake fans, preferably spaced at regular intervals on the rear of the plant wall.

1. a) Bereitstellen einer Vorrichtung, die einen Wassertank, eine Einrichtung zur Erzeugung von wasserhaltigem Fluid, eine Moos umfassende Pflanzwand und ein Schlauch- oder Rohrsystem umfasst, das mit der Einrichtung zur Erzeugung von wasserhaltigem Fluid verbunden ist, die eingerichtet ist, das erzeugte wasserhaltige Fluid in das Schlauch- oder Rohrsystem abzugeben und wobei das Schlauch- oder Rohrsystem zumindest eine Austrittsöffnung für wasserhaltiges Fluid aufweist, durch welche in dem Schlauch- oder Rohrsystem befindliches wasserhaltiges Fluid austreten kann, wobei die Vorrichtung weiterhin eine bewegliche Abdeckung aufweist, die eingerichtet ist, in einer ersten Position mindestens 80 % der Fläche der Pflanzwand, auf der die Pflanzen angeordnet sind, zu überdecken, und in einer zweiten Position einen geringeren oder gar keinen Anteil dieser Fläche zu überdecken;
2. b) Erzeugen von wasserhaltigem Fluid aus in dem Wassertank enthaltenem Wasser mittels der Einrichtung zur Erzeugung von wasserhaltigem Fluid;
3. c) Eintreten lassen des von der Einrichtung zur Erzeugung von wasserhaltigem Fluid erzeugten wasserhaltigen Fluids in das Schlauch- oder Rohrsystem;
4. d) Austreten lassen des in dem Schlauch- oder Rohrsystem befindlichen wasserhaltigen Fluids aus der zumindest einen Austrittsöffnung in dem Schlauch- oder Rohrsystem.

The invention also relates to a method for improving indoor air quality, comprising the following steps:

1. a) Providing a device comprising a water tank, a device for generating water-containing fluid, a plant wall comprising moss and a hose or pipe system which is connected to the device for generating water-containing fluid which is set up to produce the water-containing fluid into the hose or pipe system and wherein the hose or pipe system has at least one outlet opening for water-containing fluid, through which water-containing fluid located in the hose or pipe system can exit, wherein the device also has a movable cover which is set up in to cover at least 80% of the area of the plant wall on which the plants are arranged in a first position and to cover a lesser or no part of this area in a second position;
2. b) generating aqueous fluid from water contained in the water tank by means of the device for generating aqueous fluid;
3. c) admitting the water-containing fluid produced by the device for producing water-containing fluid into the hose or pipe system;
4. d) Allowing the water-containing fluid in the hose or pipe system to exit from the at least one outlet opening in the hose or pipe system.

The device provided and used in the method according to the invention has in particular all the features that were described above in connection with the device according to the invention. Features from the description of the device should therefore also be able to be used to characterize the method according to the invention in more detail and vice versa.

In the method according to the invention, the water-containing fluid is preferably generated by means of an ultrasonic air humidifier and then allowed to enter the hose or pipe system. Since the hose or pipe system has at least one and preferably a large number of outlet openings, the water-containing fluid produced is released at the desired points on the edge of the plant wall through the outlet openings in the hose or pipe system and optionally by a fan, which can optionally be an intake fan can, moved to desired locations of the plant wall. Further optionally, several intake fans are arranged on the side of the plant wall facing away from the moss, each of which sucks in the water-containing fluid located in their immediate vicinity.

The method according to the invention preferably has an additional step of arranging the movable cover in a first position in which it covers at least 80%, at least 90%, at least 95% or 100% of the area of the plant wall on which the plants are arranged, wherein the moveable cover is spaced and disposed substantially parallel to the plant wall. Ideally, this step takes place before the water-containing fluid is allowed to exit the hose or pipe system. In this way, an intermediate space is created between the planting wall and the movable cover, into which the water-containing fluid is then released from the hose or pipe system, in particular from the direction of the upper side of the planting wall.

In addition or as an alternative to watering the plant wall through a hose or pipe system arranged on at least one side of the plant wall, through which water-containing fluid is discharged in the direction of the plant wall through the at least one outlet opening, watering can also be carried out using a hose or pipe system on the lower edge of the movable cover arranged hose or pipe system, which has at least one outlet opening through which water-containing fluid is allowed to escape. This exit of water-containing fluid can also take place during the arrangement of the movable cover in front of the plant wall, so that when water-containing fluid exits from the outlet opening(s) in the hose or pipe system, different points of the plant wall come into contact with the water-containing fluid as a result of its movement will.

In all embodiments of the method according to the invention, the movable cover is preferably left in front of the plant wall for a certain period of time after the water-containing fluid has escaped, for example for a period of 2 to 10 minutes. This allows a particularly effective and even watering of the plants arranged on the plant wall.

The uniformity and effectiveness of this watering can be further increased by further features that are incorporated both individually and in combination in the method according to the invention can be set. On the one hand, the method according to the invention can have an additional step of moving water-containing fluid that has escaped from the outlet openings in the hose or pipe system in the direction of the plant wall by means of fans arranged in the area of the edges of the plant wall. Optionally, fans are only arranged on one side of the plant wall and move the water-containing fluid in the direction of the opposite side, which creates a great visual effect. Alternatively, fans can also be arranged on several sides of the plant wall, which move the water-containing fluid emerging from the outlet openings in the hose or pipe system in the direction of the center of the plant wall. With fans arranged on opposite sides of the plant wall, turbulence can occur when the water vapor masses meet, for example, which also produce a great visual effect and can contribute positively to the absorption of the water-containing fluid by the plants arranged on the plant wall.

In the method according to the invention, the movable cover can be moved in front of the planting wall as required and optionally fixed in this position. On the one hand, this has the advantage of protecting the plants from direct sunlight, so that the movable cover can be moved in front of the plant wall for protection, for example on sunny days for the time that the plants would be exposed to direct sunlight. On the other hand, the movable cover naturally has the already mentioned advantage that water-containing fluid escaping from the outlet openings in the hose or pipe system collects in the space between the plant wall and the movable cover and is available there for a particularly even watering of the plants. Since the water-containing fluid cannot move forward away from the plants when the movable wall is arranged in front of the planting wall, which would mean that a large part of the water-containing fluid would be lost, this type of irrigation is also particularly energy-efficient because the entire water-containing fluid or at least a very large part of it is used directly for watering the plants and therefore less water-containing fluid has to be generated by the device for generating water-containing fluid.

According to one embodiment, the plants are not watered continuously, but rather as needed and/or at predetermined time intervals. For this purpose, the device according to the invention for improving the indoor air quality preferably has a control unit which is connected to the device for generating aqueous fluid, the control unit preferably controlling the device for generating aqueous fluid in such a way that it generates aqueous fluid at predetermined time intervals generated or generated no water-containing fluid. The control unit is optionally set up to control the device for generating water-containing fluid as a function of a measured moisture value.

According to one embodiment, the control unit is also connected to the movable cover, which is preferably electrically operated and can be controlled by the control unit. Thus, in the method according to the invention, the control unit can control the movable cover to move in front of the plant wall when water-containing fluid is produced by the device for generating water-containing fluid, so that it collects in the space between the plant wall and the movable cover. Likewise, in the method according to the invention, the control unit can control the movable cover to move away from the plant wall again when no more water-containing fluid is produced by the device for producing water-containing fluid.

Optionally, the control unit can also have a sensor for measuring the light intensity or be connected to it, with the control unit preferably being set up to control the movable cover to move in front of the plant wall if a predetermined limit value for the measured light intensity is exceeded and if a predetermined limit value is not reached predetermined limit value for the measured light intensity to control the movable cover to move away from the plant wall.

In the method according to the invention, the control unit can optionally also take on other tasks in addition to the aforementioned tasks, which are described in summary as an IoT (Internet of Things) controller. This includes in particular the measurement of various parameters using various sensors, which are arranged in particular on or in the immediate vicinity of the plant wall, but also, for example, on the water tank, for example the measurement of light intensity, measurement of humidity, measurement of fine dust content in the air, the Measurement of the CO ₂ /O ₂ content, measurement of the temperature, measurement of the moisture in the moss or plants, measurement of the fill level in the water tank. In this case, the control unit can in particular also be set up to act as a function of the measured values, for example to regulate the humidity through the intensity of the moistening of the plant wall or to indicate the filling level in the show water tank. In addition, the control unit can also generate light or sound effects.

Optionally, the user of a device according to the invention or a method according to the invention can be informed of necessary actions by means of an app, for example to refill the water tank in good time or to replace the filter. Only the sensor-based control makes the plant wall self-sufficient and ensures a verifiable improvement in indoor air quality. Without a temperature sensor and internet-based weather data provision, there would be no certainty that watering would stop at temperatures above 25 °C and that the moss and other optional plants would survive this phase in a dry state (dormant). For such a "self-sufficient" plant wall, the device according to the invention therefore has a control unit with access to the Internet, which is set up to obtain current location-related weather data from the Internet.

According to one embodiment, the method for improving indoor air quality according to the invention also comprises a step of treating the water used to irrigate the plant wall, as a result of which the water evaporated by the device for generating water vapor has an overall degree of hardness of <1.0 °dH and a pH value of < 6.0 and thus has properties similar to rainwater. The tap water used for irrigation is treated in particular by means of an activated carbon filter, which mainly filters out chloride ions from the water, and by means of a cation exchanger, which consists of strongly acidic exchange resins and filters out calcium ions and magnesium ions from the water, whereby the water hardness is reduced. The degree of hardness of the water used to water the plants on the plant wall after the treatment is preferably about 0.3 to 0.9°dH, particularly preferably about 0.6°dH.

After the treatment, the water used to water the plants on the plant wall preferably has a pH of about 5.0 to 5.5, particularly preferably about 5.3. To achieve this, a pH-lowering agent is optionally added to the water used. This can optionally be added to the water tank via a dosing unit which automatically dispenses a predetermined quantity of the pH-lowering agent per unit volume of water filled into the tank.

The invention also relates to the use of a device according to the invention for improving the indoor air quality.

In summary, the device according to the invention provides an IoT-supported, self-sufficient plant wall containing moss for filtering and sterilizing the room air while at the same time increasing the oxygen content and generating a humidity level that is optimal for humans.

character list

• - in der 1 eine Ansicht einer Vorderseite einer Pflanzwand zeigen;
• - in der 2 eine Ansicht einer Rückseite einer Pflanzwand zeigen;
• - in der 3 eine erfindungsgemäße Vorrichtung zeigen;
• - in der 4 eine Seitenansicht einer erfindungsgemäßen Vorrichtung zeigen; und
• - in der 5 eine Vorder- und eine Seitenansicht einer erfindungsgemäßen Vorrichtung zeigen.

The invention will now be described in more detail using exemplary embodiments and with reference to the figures, which are schematic

• - in the 1 show a view of a front side of a plant wall;
• - in the 2 show a view of a rear side of a plant wall;
• - in the 3 show a device according to the invention;
• - in the 4 show a side view of a device according to the invention; and
• - in the 5 show a front and a side view of a device according to the invention.

In the 1 a front side of a planting wall 3 of a device according to the invention for improving the indoor air quality is shown schematically. The area of the plant wall 3 (pure moss area) is 2.6 mx 2 m. Three fans 7 are arranged on the opposite long sides of the plant wall 3, which transport the water-containing fluid in the desired direction and at the same time ensure that the oxygen circulates.

In the 2 a rear side of a plant wall 3 of a device according to the invention for improving the indoor air quality is shown schematically. A total of six suction fans 6 are arranged on this, which are distributed over the surface of the rear side of the plant wall 3 and have a distance of about 50 cm from one another.

In the 3 is shown schematically a device according to the invention for improving the air quality indoors. This shows the in the 1 shown planting wall 3, on the opposite longitudinal sides of which three fans 7 are arranged. The plant wall 3 is surrounded on three sides by a hose and pipe system 4 which has a plurality of outlet openings 5 through which water-containing fluid can escape. The hose and pipe system 4 surrounds the planting wall 3 on the three sides like a frame. The water used to irrigate the plant wall 3 and preferably pretreated, which preferably has a pH value of <6.0 and a degree of hardness of <1.0° dH as a result of the pretreatment, is kept in a water tank 1 . From there it is fed to a device 2 for producing water-containing fluid, the water-containing fluid produced by this being allowed to enter the hose and pipe system 4 through whose outlet openings 5 it exits again and waters the plants in the plant wall 3 .

In the 4 is shown schematically a side view of a device according to the invention. This has a vertical plant wall 3, which is arranged on a support. Below the plant wall 3, the device has a substructure, which includes the water tank 1, the device 2 for generating water-containing fluid (not shown), and a fan 6. In addition, the device has a roller blind as a movable cover 8, which is rolled up in the illustrated state, but can be moved in front of the plant wall 3 for even watering.

In the 5 is shown schematically a front view and the associated side view of a device according to the invention. This has a water tank 1 , a plant wall 3 and a hose or pipe system 4 . The device also includes a cover 8 in the form of a roller blind that can be moved via a pull system and can be extended over the entire length of the plant wall 3 from its upper edge to its lower edge, so that it covers the entire length of the plant wall 3 . In the lower area of the plant wall 3, two mutually spaced suction fans 7 are arranged and the movement of the water-containing fluid is symbolized by the arrows.

Example 1 Comparison of the irrigation effectiveness of devices according to the invention with devices not according to the invention

1. a) eine von einem Schlauchsystem umzogene Mooswand, bei dem die Bewässerung mittels aus dem Schlauchsystem austretendem Wasserdampf erfolgte;
2. b) die unter a) genannte Vorrichtung, jedoch zusätzlich mit einem Rollo, das in einem Abstand von ca. 10 cm vor die gesamte Mooswand gezogen wurde.

In order to evaluate the effectiveness of the irrigation of plant walls using devices according to the invention, the following devices were set up and the irrigation of the plant walls with them was examined:

1. a) a moss wall surrounded by a hose system, which was irrigated by steam escaping from the hose system;
2. b) the device mentioned under a), but with an additional roller blind that was pulled at a distance of approx. 10 cm in front of the entire moss wall.

The devices mentioned under a) and b) were irrigated for a period of 2 weeks exclusively by means of steam which escaped from the hose system surrounding the moss wall. The amount of water vapor used, the position of its exit from the hose system, the duration and intervals of watering, and external parameters such as pressure, air temperature, water temperature, and solar radiation were identical for all devices.

In the case of device a), which is not according to the invention, it was observed that the natural outflow of steam from the hose holes could not ensure that the steam reached the entire surface of the moss wall uniformly and everywhere. As a result, some areas were hardly or not at all watered, which turned slightly brown over time. On the other hand, other areas were wetted with too much steam, resulting in uneven watering of the moss wall.

In order to make the effect of the roller blind of device b) according to the invention visible, a transparent, airtight plastic film was stretched 10 cm in front of the moss wall instead of the roller blind. The circulation of the steam in the entire room could be observed very well through the transparent plastic film. After about an hour of watering, the plastic foil was removed and it was found that the entire moss wall was evenly moistened and the moss was a rich green glow in all places. By using a roller blind or a similar movable cover, which is moved in front of the moss wall and creates an almost airtight and vapor-tight space in front of the moss wall, an optimized, even and area-wide irrigation of the moss wall can be generated.

The features of the invention disclosed in the above description, in the figures and in the claims can be essential both individually and in any combination for the realization of the invention in its various embodiments.

Reference List

1

water tank

2

Device for generating water-containing fluid

3

plant wall

4

hose or pipe system

5

exit port

6

fan

7

intake fan

8th

cover

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 102014114307 B3 [0006]
• DE 202013012375 U1 [0009]
• US 2020/0323154 A1 [0013, 0022]

Claims (10)

Device for improving the indoor air quality, comprising a water tank (1), a device (2) for generating water-containing fluid and a plant wall (3) comprising moss and having a surface on which the plants are arranged, the device (2) is connected to a hose or pipe system (4) to produce water-containing fluid and is set up to discharge the water-containing fluid that is produced into the hose or pipe system (4), and the hose or pipe system (4) has at least one outlet opening (5 ) through which water-containing fluid in the hose or pipe system (4) can escape, characterized by a movable cover (8) which is set up, in a first position, at least 80% of the surface of the plant wall (3) on which the plants are arranged to cover, and in a second position to cover a lesser or no part of that area. device after claim 1 , characterized in that the movable cover (8) in the first position, in which it covers at least 80% of the area of the plant wall on which the plants are arranged, at a distance of approx. 2 to 20 cm from the plant wall and is arranged substantially parallel to this. Device according to one of Claims 1 or 2 , characterized in that the device further comprises at least one fan (6) which is arranged at a distance from the plant wall (3), the fan (6) being arranged to move water vapor in the direction of the plant wall (3). Device according to one of the preceding claims, characterized in that several fans (6) are arranged in the area of the edges of the plant wall (3), which can optionally be controlled separately from one another and are set up to exit from the at least one outlet opening (5) in the hose - To move or pipe system (4) exiting water-containing fluid in the direction of the plant wall (3). Device according to one of the preceding claims, characterized in that the movable cover (8) comprises or consists of a roller blind, a pleated blind, a venetian blind, a curtain, a movable wall or one or more flaps. A method of improving indoor air quality, comprising the following steps: a) providing a device according to any one of the preceding claims; b) generating water-containing fluid from the water contained in the water tank (1) by means of the device (2) for generating water-containing fluid; c) allowing the water-containing fluid produced by the device (2) for producing water-containing fluid to enter the hose or pipe system (4); d) allowing the water-containing fluid in the hose or pipe system (4) to exit from the at least one outlet opening (5) in the hose or pipe system (4); procedure after claim 6 characterized by an additional step of arranging the movable cover (8) in a first position in which it covers at least 80% of the area of the plant wall (3) on which the plants are arranged, the movable cover (8) spacing and is arranged essentially parallel to the plant wall (3). Procedure according to one of Claims 6 or 7 , characterized by a step of sucking in water-containing fluid that has escaped from the at least one outlet opening (5) in the hose and pipe system (4) in the direction of the plant wall by means of a suction fan (7) arranged on the side of the plant wall (3) facing away from the moss . Method according to one of the preceding claims, characterized in that the water contained in the water tank (1) is subjected to a treatment prior to the production of water-containing fluid from it by the device (2) for producing water-containing fluid, as a result of which it has an overall degree of hardness of < 1.0 °dH and a pH value of < 6.0. Use of a device according to any one of Claims 1 until 5 to improve indoor air quality.

Images